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AuthorHaque, A. B.M.Tahidul
AuthorGhachi, Ratiba F.
AuthorAlnahhal, Wael I.
AuthorAref, Amjad
AuthorShim, Jongmin
Available date2017-10-17T04:57:19Z
Publication Date2017-10
Publication NameJournal of Vibration and Acoustics
Identifierhttp://dx.doi.org/10.1115/1.4036469
CitationHaque, A.B.M.T., Ghachi, R.F., Alnahhal, W.I., Aref, A., Shim, J. Generalized spatial aliasing solution for the dispersion analysis of infinitely periodic multilayered composites using the finite element method (2017) Journal of Vibration and Acoustics, Transactions of the ASME, 139 (5), art. no. 051010
ISSN10489002
URIhttp://hdl.handle.net/10576/5695
AbstractThe finite element (FE) method offers an efficient framework to investigate the evolution of phononic crystals which possess materials or geometric nonlinearity subject to external loading. Despite its superior efficiency, the FE method suffers from spectral distortions in the dispersion analysis of waves perpendicular to the layers in infinitely periodic multilayered composites. In this study, the analytical dispersion relation for sagittal elastic waves is reformulated in a substantially concise form, and it is employed to reproduce spatial aliasing-induced spectral distortions in FE dispersion relations. Furthermore, through an anti-aliasing condition and the effective elastic modulus theory, an FE modeling general guideline is provided to overcome the observed spectral distortions in FE dispersion relations of infinitely periodic multilayered composites, and its validity is also demonstrated.
SponsorQatar National Research Fund through Grant No. NPRP8-1568-2-666. Shim acknowledges start-up funds from the University at Buffalo (UB), and he is grateful to the support of UB Center for Computational Research.
Languageen
PublisherAmerican Society of Mechanical Engineers
SubjectMetamaterials
Dispersion (waves)
Quantum theory
Finite element method
TitleGeneralized spatial aliasing solution for the dispersion analysis of infinitely periodic multilayered composites using the finite element method
TypeArticle
Issue Number5
Volume Number139


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